Countless established organizations in the manufacturing world exist to deliver these unique benefits to members. One such organization is the Center for Powder Metallurgy Technology (CPMT).
CPMT was originally developed by the United States Department of Commerce as part of a series of cooperative technology programs, with the ultimate goal of promoting the progress of the powder metallurgy industry. With members from across the nation, CPMT continues to conduct research on the latest practices involving this sector of the manufacturing industry. But what exactly does this organization provide to its members? Manufacturers interested in supporting the growth of the powder metallurgy industry can receive the following benefits from joining CPMT:
- Participate in Technology Focus Meetings, sponsored by CPMT, as well as access archived Technology Focus presentations.
- Contribute to discussions about certain activities happening at CPMT, such as training programs.
- Vote and serve on CPMT’s Board of Trustees. Gain a first-hand look and have a say in how CPMT awards its scholarships and grants, develops its training and conducts its research on the industry.
- Network! Current members of CPMT include everyone from end users to manufacturers to powder/equipment providers, including big name companies such as Eaton Corporation, Fiat Chrysler Automobiles, John Deere Technology Center and General Motors Corporation.
- Receive periodic research reports. CPMT is constantly funding and conducting new research projects to benefit and further support the powder metallurgy industry. Members can gain direct access to past and current project findings to help educate their practices and operations. Overviews of current and past projects can be found on their website, which include:
- Fatigue testing to investigate the strain-controlled, low-cycle axial fatigue response of steel and aluminum powder metallurgy steel materials and process conditions. CPMT expects to continue gathering data on this topic for several years.
- Resonant acoustical mixing testing, which involves preparing a variety of high performance mixes using acoustical mixing technology. Samples will be evaluated and compared with traditional mixing techniques. Compacted test specimens also will be evaluated in the green and sintered condition for improved microstructural uniformity and mechanical properties.
- Sinter hardening improvement. In this research project, different sintering tray/plate materials will be evaluated to compare microstructure and dimensional stability of powder metallurgy parts during the sinter hardening process. The plate materials involved will be ceramic vs. carbon/carbon fiber.
MEET OUR EXPERT
Principal Materials Engineer
As an accomplished engineer, inventor, mentor of emerging talent and successful entrepreneur, Gregg brings an impressive array of expertise and enthusiasm to every endeavor he pursues. In his current role, Gregg works on-site at the Detroit headquarters of Lightweight Innovations for Tomorrow (LIFT) as part of a program to propel the use of lightweight materials in manufacturing. Gregg’s OEM and Tier 1 automotive engineering experience spans more than 30 years and includes extensive ferrous and non-ferrous body structure design and innovation, aerodynamics, software controls, manufacturing/processing and more.
Since 1991, the Michigan Manufacturing Technology Center has assisted Michigan’s small and medium-sized businesses to successfully compete and grow. Through personalized services designed to meet the needs of clients, we develop more effective business leaders, drive product and process innovation, promote company-wide operational excellence and foster creative strategies for business growth and greater profitability. Find us at www.the-center.org.